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Document Title | 8 |
Exhibit S
LSX-PM'P-Ol-OOO
nbrznm
No. 68132 Revision A January 1999
Tel-Link
Point-To-M-ultipoint
Sector Terminal Installation Manual
Every effort has been made to ensure that the information contained herein Is complete and accurate. However, the
Information contained in this manual is subject to change without notice and P-COM reserves the right to change
specifications of hardware and software without prior notice and assumes no responsibility for any damages resulting
from any errors or omissions in this manual. P-COM's obligations regarding the use or application of its products shall
be limited to those commitments to the purdiaser set forth in its Standard Terms and Conditions of Sale for a delivered
nroduct.
© Copyright 1998, P~COM, Inc. All rights reserved. This dooument contains information Confidential and Proprietary to
P-COM. Inc. No part of this publication may be reproduced or transmitted by any means and disclosure or distribution
of its contents outside the company in any form without written consent from F-COM is strictly prohibited.
Issued by P-COM, Inc, ,,
1301 Firm Strut, Melbourne. Florida 32901 Fri-main U.S.A.
fi}l:.'l:l|11
January 1999
This Page Intentionally Left Blank
65132 Til-Llnk Polnt-To-Multlpoint, Rev. A
nit-am
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
January 1999
Tel-Link Point-to-Multipoint
Sector Terminal Installation Manual
Contents
General Information
Manual Organization
1.1
1.2 FCC Requirements Summary 1-2
1.3 Requesting Changes 1-2
1.4 Special Notations" 1-2
1.5
General Safety Reminder
1.6 PMP Terminology"
Sector Terminal Overview
2.1 Indoor Unit (IDU)
2.2 Hub IF Combiner
2.3 Outdoor Unit (OD
2.4 Antenna
2.5 IF Cable Run
Tools and Test Equipment Required .........................................................
Site Preparation ...............
4.1 ODU/Antenna Installation Preparation.
4.2 IDU Installation Preparation
4.3 Power Preparation.
4.4 iFI. Installation Prepare ion.
Equipment Receiving, Unpacking and inspection
5.1 Introduction .....
5.2 Receiving and Unpacking the Equipment
53 Inspecting the Equipment .....................
Sector Terminal Outdoor Unit Installation
6.1 introductio
62 Tools Requ e
6.3 Materials Reqmred
6.4 Sector Terminal ODU/Antenna Installation.
Sector Terminal IDU 8; Hub IF combiner Installation .....
7.1 Introduction ......
7.2 Sector Terminal IDU Installation.
7.2.1 Tools Required.
7.2.2 Materials Required
7.2.3 Sector Terminal [DU Installation Procedure
7.3 Hub IF Combiner Chassis Installation
7.3.1 Tools Required“
7.3.2 Materials Required
7.3.3 Hub iF Combinar installation Procedure.
Sector Terminal Wiring and Cabling Installation ......
8.1 Inter Facility Link (IFL) Combinar “Cabling” and Wiring
ll. 1 1 AC Power Supply... .-
65132 Tot-Link Point-Towiultlpoint, Rev. A I
F b E a m 1 January 1999
9.0
10.0
11.0
12.0
8.1.2 DC PoweruppIy....
8.1.3 Sector lDU Interfaciliry Coaxial Cabling Installation
8.1 A Network interface Card (NIC) Interface Cable.
8.2 Hub lF Combiner Cabling and Wiring installation
8.2.1 AC Power Supply.
8.2.2 DC Power Supply.
8.2.3 Sector lDU lF Coaxral Cable Installation
8.2.4 lFL Coaxial Cable installation Procedure
Sector Terminal IDU Board Installation ........................
Sector Terminal Initial Power Application ..
10.1 DC Power Application
102 AC Power Application
Initlal Terminal Configuration and Testin
11.1 Terminal Configuration.
11.2 Terminal (Local) Testin
11.2.1 T1 Loopbaok Test
11.2.2 Antenna Alignmen
11.3 Terminal Commissioning.
Technical Support
12.1 Warranty.....
122 Return Proces
123 Spares Ordering Information
12.4 Recommended Spare Parts
APPENDIX A: PMP installation Procedure Checklist ................................................................... A-1
APPENDIX B: Site Survey Checklist
Glossary
65112 Tel-Link Polnt-To-Multlpoint. Rev. A
p b E D m . January 1998
List of Figures
Figure 2-1 - Example of Simplified Base Station Site
Figure 6-1 - Sector ODU & Baseplate .....................
Figure 8-1 - Sector Terminal IDU (AC Input) Rear Vlew
Figure 8-2 - Ac Plug Close-up. 3.2
Figure 8-4 - DC Plug Close-up. 8-4
Figure 8-5 - NIC pinouts.... 8-5
Figure 8-6 - Hub IF Combiner Rear View — AC Power Versron 86
Figure 8-7 - Hub IF Combiner Rear View DC Plug Close-up 8-7
Figure 8-8 - Hub IF Combiner Rear View — DC Power Ve on 8-7
Figure 9-1 - Hub/Sector IDU — Non-Redundant 9-1
Figure 9-2 - Hub/Sector IDU Redundant 9-2
Figure 9-3 - Printed Circuit Board .I.' 9-3
Figure 9—4 - Printed Circuit Board Insertion 9-4
9-4
Figure 9-5 A Printed Circuit Board Insertion
Figure 11-1 -LSM Attached To NMS Controller #1 of Sector IDU
Figure 11-2 - Bit Error Rate Test Configuration .......................
____—___*___—____————-—
88132 Tel-Link Point-Te-Multipoint, Rev. A III
P b E D m _ January 1999
List of Tables
Table 2- 1 - LMR-400 Performance Characteristics
Table 2- 2- |FL Signals.
Table 3-1— —Required Tools and Equipment (Commissronrng)
Table 3-2- Required Tools and Equipment (lnslallation)
Table 3-2 - Required Tools and Equipment (installation) (Cont/nued).
Table 3-3 — Required Tools and Equipment (Survey).4.
Table 5-1 - PMP Sector Terminal Equipment Parts Us
Table 11-1 - Board LED Indications .....
Table 12-1 - Recommended Spare Parts
____—_________—_____._—-
IV “132 Tel—Link Polnt-To-Mulllpolnt, Rev‘ A
plcnm
1.0 General Information
January 1999
Before installing and operating a Tel-Link Point to Multipoint (PMP) System, P-COM recommends
that installation personnel read this section in its entirety. before installing Once this is
accomplished, the user can proceed directly to the section or subsection of interest.
This manual provides the installation procedures and guidelines for installing hardware
associated with a Tel-Link Point to Muitipoint (PMP) System. This manual is intended for
personnel who are responsible for installing and testing the Tel-Link Point to Multipoint system.
The user should keep this manual next to the system at all times.
P—Com highly recommends that the user utilize the P-COM PMP Installation Procedure Checklist
located in Appendix A to ensure the correct procedures for installing P-COM PMP equipment are
followed. For further assistance? contact P-COM the Technical Assistance Center at (407) 674-
3699.
1.1 Manual Organization
This manual is part of a set of Tel-Link Point-to-Multipoint manuals that focus on specific aspects
of the Point-to-Multipoint system The set of manuals consist of the following:
68132 - Tel-Link Point-to—Multipoint Sector Terminal installation Manual
68133 - Tel-Link Point-to-Multipoint Remote Terminal Installation Manual
66134 - Tel—Link Point-to~Muitipoint Local Site Manager Manual
68135 - Tel-Link Point—to—Multipoint System Description Manual
The Manual is divided into 12 sections providing specific information needed to install and test the
Tel-Link Point to Multipoint System. The sections are:
a Section 1: General lnfonnation — Contains discussions on the use of this manual.
summary of the manual, special notations. and general safety reminders
- Section 2: Sector Terminal Overview
- Section 3: Tools and Test Equipment Required
. Section 4: Site Preparation
- Section 5: Equipment Unpacking and Inspection
- Section 6: Sector Terminal Outdoor Unit Installation
- Section 7: Sector Terminal Indoor Unit Equipment Physical Installation
0 Section 3: Installation of Sector Terminal Wire and Cabling
- Section 9: Sector Terminal IDU Board Installation
- Section 10 Sector Terminal Initial Power Application
0 Section 11: Initial Terminal Configuration and Testing
- Section 12: Technical Support
68132 To - ink Point-To-Multipoint, Rev. A 1-1
p} E a m January 1999
1.2 FCC Requirements Summary
Operators must be familiar with the requirements of the Federal Communications Commission
(FCC) Parts 2 and 101 Regulations prior to operating any link using the equipment. For
installations outside the United States. contact local authorifies for applicable regulations.
1.3 Requesting Changes
We welcome your suggestions for improving this manual. A Reader Comments form is provided
at the end of this manual on which you can record your comments and suggestions for
improvements.
1.4 Special Notations . ._
This manual uses four levels of special notation to alert you to important information concerning
your safety, proper equipment handling, or useful tips for easier operation. These notations are
shown below in descending order of importance
DANGER!
Indicates that personal injury can result if you do not comply
with the given instruction. A DANGER! statement will describe
the potential hazard, its possible consequences, and the steps
you must take to avoid personal injury.
WARNING!
indicates that serious damage to the equipment can result if you do
not comply with the given instruction. A WARNINGI statement will
describe the potential hazard, its possible consequences, and the
steps you must take to avoid serious equipment damage.
CAUTION!
Indicates that equipment damage and/or process failure can result if
you do not comply with the given instruction. A CAUTION!
statement will describe the potential hazard, its possible
consequences. and the steps you must take to avoid equipment
damage and/or process failure.
NOTE
Provides supplementary information to emphasize a point or
procedure, or gives a tip for easier operation.
1-2 53132 Tel~Link Polnt-To-Multlpolnl, kw. A
talcum
January 1999
1.5 General Safety Reminders
To prevent possible personal injury or equipment damage. always observe the following rules:
installation and operations personnel should be familiar with the safety requirements before
attempting installation or operation of the equipment covered by this manual. Failure to follow
the requirements could result in death or injury to personnel and/or damage to the equipment.
Always examine the general area for any potential hazards (such as wet floors or overhead
powerlines) before beginning installation.
Observe all DANGER! notations. Dangerously high voltages are present within this
equipment, when in operation. Lethal line voltages may be present unless the main line
power has been disconnected.
Always remove any jewelry or other personal items that may conduct electricity before
beginning installation.
Keep away from live circuits. Whenever feasible in verifying circuits, check by continuity and
resistance methods with all power off. rather than directly checking voltages.
Observe grounding precautions. Verify that the unit under test or being installed and all
measurement equipment are properly grounded.
Do not test alone. Testing or adjusting the equipment should only be carried out in the
presence of a person qualified to render aid.
When lifting the equipment. use proper lifting techniques to prevent injury.
it is the responsibility of the installer and the user to ensure that the public is not exposed to
excessive RF levels. Such information must be posted near the antenna in the form of
caution or warning notes and signs.
1.6 PMP Terminology
For the ease of the reader. a Glossary is provided at the end of the manual defining terminology
used in P-COM Tel-Link Point-to—Multipoint manuals
66132 Tel-Link Polnt-To-Multlpoint. Rev. A 14!
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14
January 1 999
This Page Intentionally Left Blank
68132 ToI-Link Polnt-Ta-Mulupolnt. Rev. A
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2.0 Sector Terminal Overview
January 1999
The PMP network is designed around a series of Base Station sites strategically located within
the desired coverage area. with each site supporting Iine-of-sight connections to many Remote
Terminals A Base Station provides 360” coverage through the use of segmented sectors. each
providing 15°~90' coverage around the Base Station (refer to Figure 2-1). Each Base Station
also interfaces to the Public Switched Network (PSN) through concentrated access links. A
sectorized area of a Base Station Sector is supported by 1 to 5 Sector Terminals. depending on
the number of Remote Terminals located in that sector. A Sector Terminal consists of an Indoor
Unit (lDU) and an integrated RF/Antenna Outdoor Unit (ODU). The Sector lDU is a standard 19-
inch rack-mount chassis with redundant power supplies, and space for plug-in cards. All cards
are hot pluggablelswapable. Each sector antenna contains a transmit and receive horn, with
azimuth beamwidths from 15"'a'rid 90°.
BASE STATION
Romote
Terminal
3 Rome“
Remote Remote
Terminal Terminal
BASE STATION
Remote
Tonnlnll
Remote
Tunninul Terminal
Figure 2-1 - Example of Simplified Base Station Site
53132 Tel-Link Point-To-Multlpolnt, Rev. A 2-1
r-lirzclm
The system utilizes a cell-multiplexed. continuous carrier to transmit data from a Sector Terminal
to the Remote Terminals. A separate carrier is used by each Sector Terminal to deliver these
cells to the Remote Teminals. These centers are typically transmitted at slightly different
frequencies to avoid interference Frequency Division Multiple Access (FDMA) method is used
by the Remote Terminals to transmit information to a Sector Terminal The Remote Terminals
each communicate on separate carriers with demodulators at the Sector Terminal.
January 1999
The Sector Terminal consists of the following components:
a An lDU chassis to house modulator(s), demodulator(s). sector controller(s). power
supply(ies) and Network Interface Modules (NICs)
- A Hub IF Combiner
0 An outdoor unit (ODU) containing the RF electronics
- An Antenna and mounting hardware
- An IFL consisting of a single coaxial cable connecting the IDU to the ODU
2.1 Indoor Unit (IDU)
The Sector indoor unit (IDU) is located inside the customer's strategically located Base Station
facility. Multiple Sector lDUs may be connected to a Hub IF Combiner to increase the capacity
supported in a particular sector. The Hub IF Combiner is the interface between multiple Sector
IDUs to an outdoor unit (ODU) via a single coaxial cable. The lDU Is comprised of the following
components:
. A software configurable QPSK, 16-QAM, or 64-QAM Modem consisting of a Modulator
and Demodulator that provides the physical layer wireless communication link between
the Sector Terminal lDU and the Remote Terminal lDU
. A Controller card that is responsible for controlling and monitoring local functions. and
processing Network Management messages from the Network Operation Center.
- Network Interface Cards (NICs) which supports user interfaces, as well as signal
monitoring and port statistics collection.
The Sector Indoor Unit (lDU) chassis consists of a modulator(s). demodulator(s), and controller(s)
and can accommodate up to 5 T1 Network Interface Cards (NICs) (refer to Figure 22). Chassis
configuration is performed from a Local Site Manager (LSM) laptop or desktop PC using the P-
COM’s WaveView Lite Windows application. Each card has specific variables, which need to be
properly configured to establish a RF link to the PMP Remote Terminals and pass user data.
Each card in the chassis has a physical and logical slot number and are individually addressed by
logical slot number (refer to Figure 2-3).
2-2 68132 Tel-Link Polnt—To-Multipoint, Rev. A
r-l) cam mm
m ‘ ,
g, , ' , ‘ 1 7M
Figure 2-2 - Sector Indoor Unit Chassis
Physical Slot Numbers
1 2 3 4 5 S T B 9 10 11 12 (3 14 15 16 17 18 19
ll]
DEMOD 1
DEMOD 4
DEMOD 6
DEMOD 7
DEMOD fl
Figure 2-3 — Sector Station IDU Interior
Figure 2—4 shows a simplified block diagram ofthe IDU.
631 32 Tol-Llnk Pcinl~To~MuItipoInt, Rev. A 2-3
January 1999
Figure 2—4 — IDU Block Diagram
A single, or dual for redundancy. power source (AC or DC) is required to provide power to the
Sector Terminal. An optional external battery back-up unit can provide from 4 to 8 hours of
operation in the presence of a primary power failure (refer to Figure 2-5).
Figure 2-5 - AC Power Source
2-4 68132 TIl-Unk Polnl-Tu-Multlpolnt. REV. A
p} E D "1 January 1999
2.2 Hub IF Combiner
The Hub IF Combiner is used to combine multiple (up to four) Sector IDU signals and to route
them to a single Outdoor Unit (ODU). These Sector IDU signals include Transmit IF and Recelve
IF signals and also carry telemetry information, After these signals enter the HUB IF Combiner
they are ooupled together with a high stability frequency oscillator and 3 +48 VDC signal The
high stability frequency oscillator operates as a system reference for the ODU and its control
circuitry. The +48 VDC signal is the supply voltage for the ODU. The Sector IDU IF signals, the
reference signals, the telemetry information and the +48 VDC signal are all distributed to the
ODU by a single cable.
On the back panel of the Hub-IF—Combiner is a switch that enables the user to select whether the
unit is operating Link A or Link B. On the front panel a LED will be illuminated to identify which
configuration has been selected.
The HUB IF Combiner is powered by 120 VAC (refer to Figure 2-6), or +48 VDC (refer to Figure
2-7) if the unit was ordered with the optional DC configuration.
Figure 2-7 4 IF Combiner 48 VDC
33132 Til-Link Polnt-To—Multipolnt, Rm. A 2-5
n } E a m January 1999
2.3 Outdoor Unit (ODU)
Figure 2-8 illustrates the RF/Antenna configuration for the Sector Terminal Outdoor Unit. The
packaging includes the following components:
0 ODU Enclosure
- RF Electronics
. ODU Controller Card responsible for controlling and monitoring ODU functions and for
interfacing with the IDU
The ODU is frequency agile so that the same ODU can typically be used throughout the entire
allocated frequency band. Subsequently, this reduces sparing levels.
The ODU meets all National Electrical Code requirements pertaining to lightning and power
transients and meets or exceeds FCC and ETSI regulations pertaining to oonducted and radiated
Electromagnetic Emissions.
The ODU is sealed against the environment and is capable of functioning in ambient
temperatures ranging from -40°C to +60°C, with up to 100% relative humidity. The ODU can
survive steady state winds of 40 m/s with gusts to 55 m/s (89 mph/123 mph).
Figure 2—8 - Sector Terminal Outdoor Unit (Redundant Configuration)
Figure 29 illustrates the interior and interface baseplate of the Sector Terminal ODU.
2-6 68132 ToI-Llnk Polnt-ToMultIpoint, Rev. A
January 1999
,/- -l-000".
'0°°ooooooe
0000
000000 000 O
OOOOOOOOQ
Figure 2-9 —— Sector Terminal ODU & Basepiate
2.4 Antenna
The antenna is a Iensed~horn antenna. For 24-26 GHz, two home are used for transmit and
receive functions. At 38 GHz, a single horn antenna is used. Specific antennae are used for
horizonml or vertical polarizations and for azimuth beamwidths of 15“, 22.5“, 45° or 90°. The
elevation beamwidth is typically 6“.
The antennae are mounted onto a rectangular mounting plate with mounting hinges used to
install on a pole. One of the hinges allows for elevation adjustment.
- Feed
. Radome
o Mount
2.5 IF Cable Run
A single coaxial cable is used to connect the ODU to the DU. The cable carries transmit IF
signal, receive IF signal, telemetry 10 MHz reference signal and DC power. The IDU and ODU
contain “N” type female connectors for interconnection of the coaxial cable. For increased EMC
performance, P-COM recommends the use of Times-Microwave LMR-400 in Table 2-1, double
screened. coaxial cable. Other coaxial cables with equivalent performance characteristics of the
LMR-400. shown below. may be used. LMR-400 may be used in lengths up to 1000 feet. The
maximum bend radius of LMR-400 is 6 inches (15 cm).
58132 Tel-Link Point-To-Multlpolnt. Rev. A 2-7
nlcnm
Table 2-1 - LMR-400 Perfonnangg Characteri§tlcs
Property LMR-400
Dielectric Cellular PE
(low loss closed cell polyethylene foam)
0.285" nominal diameter
January 1999 ’
Aluminum laminated tape bonded to the
dielectric with tinned/copper over braid.
Diameter: 0.320" nominal
acket , -- Black PE
Nominal jacket thickness: 0. 045"
_—
__
—_
__
The signals that are carried between the IDU and the ODU on the coaxial lFL cable are provided
in Table 2-24
243 66132 Tel-Unk Polnl-To-Multlpolnl, Rev. A
p } E D m January 1999 I
Table 2-2 - iEL Sigflg|§
——m
iFL Power . ‘ Voltage Variation ;
ODU Power +48 Vdc +40 to +57Vdc
iFL Connector - Termination 1 v Termination 2
Type N male lFL Combiner
Type BNC - N male IFL Combiner
68132 Toi-unk Foint—To-Multipoint, Rav. A 2-9
January 1999
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This Page Intentionally Left Blank
2-1 0 631 32 Tol-Llnk Painl-To-Multlpolnt, Rev. A
r-llrznm
3.0 Tools and Test Equipment Required
Tables 3-1, 3-2 and 3-3 are the recommended list of tools and test equipment necessary for the
installation of a P-COM Pcint-to-Multipoint radio subsystem:
This is a Typical installers tool Kit . on some installations additional
tools may be necessary.
Table 3-1 — Reguired Tools and Eguigment (Commissioning)
NOTE:
January 1999
DESCRIPTle BRAND PART NO
Antenna Alignment Tool
Binoculars
Bit Error Rate Test Set, (with correct UIM
interface module) FireBird Portable T1
Circuit Tester
Compass
Computer Laptop( (with LSM Software)
Flashlight
ML901-F
Global Pcsitionin- System
Printer, Color
Multimeter, Handheld
Radio, 2-Way or Cell Phone
Safety Belt
Screwdriver, Jewelers Set
Static Material Kit
Charleswater
Wood Stick
Wrench 8” Adjustable
Wrench, SAE ’/4 - % Set
Wrench, Socket Set (Deep)
_\_I_\_A_.\_AN_\_A
Desco
Diamalloy
Wrench Torque( 20 in lbs. —55ftibs.)
68132 Tel-Link Point-To-Mumpoint. Rev. A
r-llrznm
Table g-g - Eggulrgg Tgols and Equipment (Installation),
January 1999
DESCRIPTION PART NO
Binoculars
Bit Error Rate Test Set, (with correct UIM
interface module) FireBird Portable T1
Cable Cutter
Circuit Tester
Compass
Computer, Laptop (with LSM Soflware)
Crimp Tool (Solderless Connectors)
Crimp Tool, RJ-x Connectors (RJ-1'1,RJ-45)
De-soldering Tool
Dia-onal Cutters. Flush Cut
Diamalloy
Flashlight
Glasses, Safety
Mallory
Eastern Safety
S55KS
MLQO’l-F
Global Positioning System
Inclinometer
Knife, Utility
Knife/Scissors/Pouch
Multimeter, Handheld
N-Connec’tor, w/Padded Jaws
Cresant
Pliers, Needle Nose 4" Insulated
Pliers, Slip Joint 6“ insulated
Diamalloy
Diamalloy
Printer, Color
Radio, 2-Way or Cell Phone
Rope, Nylon 100 feet
Rope, Nylon 50 feet
Safety Belt
Screwdriver, #0 Phillips
Screwdriver, #1 Phillips
Screwdriver, #2 Phillips
Screwdriver, #2 Phillips Stubby
Screwdriver, #3 Phillips
Xcelite
Xcelite
Xcelite
Xcelite
Xcelite
Screwdriver, ‘A x 1" Slotted
Screwdriver, % x 4" Slotted
Screwdriver, 1/8 x 2" Slotted
Screwdriver, 1/8 x S" Slotted
Xcelite
Screwdriver. 3/16 x 3" Slotted
Shrink-tube, 3/4" Epoxy Lined
Shrink-tube. Variety Pack
Solderin- Iron, 25 watt
3-2
83—4000—000
“132 Tel-Link Polnt-Tn-Multipoint, Rev. A |
n) cum ' mm
Table 3-2 — Reguired Tools and Eguipmeng (Ingtallagjgg) (Continuggj
Solderin- Iron Solder Weller SF23
Static Material Kit
Tape Measure
Tie Wraps
Wire Brush, Stiff
Wire Stripper, 10-18 AWG Ideal 45-120
Wire Wrap Tool. 24 & 26 Gau-e, Manual
Wire Wrap Tool, 24 & 26 Gauge, Power
Wrench. 8" Adjustable 1 Diamalloy
Wrench, SAE V. - V. Set 1 1.
Charleswater 16430
Wrench, Socket Set (Deep)
Wrench, Torque (20 in lbs. — 55 ft lbs.)
Table 3-3 - Reguirad ngI§ gng Eguigment (§urvey[
DESCRIPTION QNTY BRAND PART NO
Mallory ML901- F
Safety Belt 1
Radio, 2-Way or Cell Phone 2
Wood Stick ' 1
Compass
Computer, Laptop (with LSM Software)
Global Positioning System
Printer, Color
Multimeter, Handheld
Camera. (Di-ital Preferred) 1
Soldering Iron 25 Watt Weller SP23
ML901-F
_—__———___—________.—_—
68132 Tal \ CAM¢§~¢¥3§ vzd
335 23mm Aftié vflv En: invm
5-3
Figure 8-3 — Sector Terminal IDU (DC Input) Rear View
63132 Tcl-Llnk Polnt-To-Mulfipulnt, Rev‘ A
January 1959
Figure 8-4 — Dc Plug Close-up
The DC power to the Sector Terminal should be protected with a 5 Amp fuse.
DANGER!
Before connecting the DC cable to the lDU, ensure that the
protection fuse is removed to prevent the application of power
at this time
Two sets of DC cables are required for redundant applications. These two cables should be
routed to separate fuses.
8.1.3 Sector IDU Interfacillty Coaxial Cabling Installation
The Sector lDU is connected to the Hub IF Combiner via a FIG-58 (50 ohm) coaxial cable with
ENC male connectors on each end. The length of the cable should be sufficient to allow a small
service loop near each end. A Type-N (M) to ENC (F) adapter is installed on the IF ports of the
Sector lDU to interface with this coaxial cable,
For non-redundant configurations, only one Hub IF Combiner will be used, The primary lF port of
Sector lDU designated as “Sector [Bu #1" should be connected to the port labeled “lFL 1" of the
Hub IF Combiner. Sector lDU #2 should be connected to lFL 2 of the Hub IF Combiner.
For redundant configurations, two Hub IF Combiners will be used; one Hub IF Combiner
designated at ‘Link A" and the other as “Link 8". The primary IF port of Sector lDU #1 should be
connected to the port labeled “IFL 1" of the “Link A" Hub lF Combiner. The secondary IF port of
Sector lDU #1 should be connected to the port labeled ‘IFL 1' of the “Link B" Hub IF Combiner.
34 55132 ToI«Link Polnt-To-Muldpoint. Row A
m |:|:|m ......,....
8.1.4 Network Interface Card (NIC) interface Cable
The interface to the 6xT1 Network interface Card (NIC) Is a 50-pin Amp Champ. female.
connector. Access to this port is from the rear of the Remote Terminal IDU chassis. Figure 8-1
identifies the slot number of the boards when installed.
The pin-outs of the connector on the 6xT1 NIC board are shown in Figure 8-5.
JP25
> CH1-TRING _ 1 . CH1‘TTIP (
) CH1 -RRlNG _ 2 . CH1 -RTIP (
> CH2-TRING . 3 _ CH2-TTIP (
> CH2 - RRING 14 . CH2 - RTIP (
) CH3 - TRING _ 5 _ CH3 -TTlP <
) CHS - RRING _ 6 _ CH3 - RTiP <
) CH4-TRING _ 7 ' CH4-T‘l’lP (
> CH4 . RRING _ a _ cm - RTIP (
> CHS-TRING ' . CH5-TTIP <
CHs - RRING CH5 - RTIP
2 CH6 ~TRING : : cr-rs -1'ru= 2
) CHS-RRING _ _ CHe ARTIP <
. .
. .
. .
. .
. .
- .
. .
. .
. .
. .
. .
. .
. .
555057 -1
AMP, 50 - PIN CHAMP CONNECTOR
T1 INTERFACE IIO COONNECTOR m
Figure 8-5 - NIC pinouts
It is preferable to use a 50-pin Amp Champ, male, connector, part number _. Secure the
connector to the UM board with the two captive retaining screws on the male connector.
______—______._—_-———-——
58132 Tel-Link Pclnt-To-Mulllpolnl. Rw. A 5-5
talcum
8.2 Hub IF Combiner Cabling and Wiring Installation
The following shelf wiring is required for full system operations:
January 1999
a Power Supply Cabling
. Sector IDU IF Cables
- Inter Facility Coaxial Cable (IDU to Hub IF Combiner)
8.2.1 AC Power Supply
For AC operations. a standard computer AC power cable rated for 10 Amp capacity is supplied
with each Hub IF Combiner chassis. The AC receptacle is found on the rear of the Hub IF
Combiner chassis (refer to Figure 8—6).
Figure 8-6 — Hub IF Combiner Rear View - AC Power Version
DAMGEB!
Before connecting the AC cord to the IDU, ensure that the
power switch Is turned off.
The AC power to the Hub IF Combiner should be protected with a 1.0 Amp fuse or circuit breaker.
8.2.2 DC Power Supply
For DC operations, 12 AWG, 2-conductor cable is supplied. The cables for carrying DC power to
the IDU‘s should be routed to a DC distribution panel preferably installed in the same rack. The
DC distribution panel should provide individual fuse protection to each chassis and for each
power lead in redundant applications. The DC receptacle is found on the rear of the IDU chassis.
Figure 8-7 shows the DC power supply version rear view of the Sector IDU.
8-5 88132 Tal-Llnk Polnt-To-Multipolnt. Nov. A
January 1999
Figure 8-7— Hub IF Combiner Rear View DC Plug Close-up
QAN G EB“
Before connecting the DC cable to the lDU, ensure that the
protectlon fuse is removed to prevent the application of power
at this time.
The DC power to the Sector Terminal should be protected with a 1.5 Amp fuse.
8.2.3 Sector lDU IF Coaxial Cable installation
The RG<58 coaxial cables. with BNC male connectors, routed from the Sector IDUs are to be
terminated into the lFL ports on the rear of the Hub IF Combiner (refer to Figure 8-8 for a rear
view of the Hub lF Combiner). The Sector IDU designated at “Sector lDU #1" should be
terminated into the port labeled “IFL 1'. Sector IDU #2 should be terminated into IFL 2.
Figure 8-5 - Hub IF Combiner Rear View — DC Power Version
it is not necessary to terminate unused ports of the Hub [F Combiner.
___—_—______——-————
68132 Tel-Link Polnt-To-Multlpolnl. Rev. A 8-1
p: } E n m January1m
8.2.4 IFL Coaxlal Cable Installation Procedure
NOTE:
Typically, for redundant applications, the top ODU/Antenna
assembly is routed to the Hub IF Combiner assigned as "Link A"
and the bottom ODU/Antenna assembly is routed to the Hub IF
Combiner assigned as “Link B.‘
Indoors
Step 1 Connect the IFL cable to the Type-N female port of the Hub IF Combiner.
Outdoors
Step 2 Connect a 90°.Type-N adapter to the ODU Type—N female port.
Step 3 Connect the IFL cable to the 90° Type-N adapter
Step 4 Wrap the connector assembly wlth weather-proof tape to prevent moisture
penetration.
—_._____.—__.__.____—————~—————————
5-8 68132 Tel-Llnk PoInt-Tu-Multlpolnt, Rev. A
ntcnm
9.0 Sector Terminal IDU Board Installation
January 1999
flaming!
Precautions for anti-static protectlon should be taken whenever
handling printed circuit boards. Circuit modules can be damaged by
electrostatic discharge. Ensure that an approved anti-static wrist
strap is connected between the wrist of the person and an electrical
ground before handling any of the circuit modules.
The common equipment boards of a Sector IDU consist of the power supply. controller, Network
interface Card(s), modulator, and demodulator(s). For redundant configurations, two each of the
following boards will be used: power supply, controller, and modulator, One additional
demodulator board for all on-line demodulators will be installed for redundant operations. Up to
five on-line NIC cards, plus an additional redundant card may be placed in a Sector IDU.
Placement of the common equipment boards within the IDU chassis is critical, and should follow
the appropriate illustrations: Figure 9-1 for non-redundant configurations and 9-2 for redundant
configurations. insert the boards from left to right for each board type.
<< Insert interior view of a Sector IDU, non-redundant
configuration >>
Figure 9—1 — Hub/Sector IDU - Non-Redundant
___.——___.___—.—-——-—
68132 Tel-Link Point-To-Multlpolnt, Rev. A 9-1
h b E n m January 1999
Sector iDU - Front View
Door Latch
Captive Door
Locking Screw
Door Key Lock
-__-_»__ ______ L
Iflfll'fllql‘llqllfliqlqi'fil"! uu
fl,
iflli-IIIIIIIIIIIIIIIII
mmmmmvmvwmwmmmmmmmmgm
xxxxxggggggggggggggng
jjjjjmomoaaassasaesaa
Qaqa“"""""""“"“"
2323; m mcccoccocoooo
noooowmemmmmmmmmmmmm
gagmesyagaééggé
gcgéfiggggggnanagannnann
—~~»-——~ 6’ guaaunuanuntfiat
Awaken fl qanmamcnximw-okjr—s
Woman
Figure 9-2 — Hub/SecrorIDU Redundant
The printed circuit board has a high-density connector on one edge of the board and two black
tabs on the opposite edge of the board. A diagram of the XXXX board is shown in Figure 9-3,
identifying the high-density connector and the two black tabs. Within the chassis, a board siol
consists of nylon guides located at the top and bottom of a board slot, and a high density mating
connector located on the motherboard within the chassis.
—________________—_____.——
9-2 68132 Tot-Link Point-To-Muitlpolnt. Rcv. A
p } E a m January1999
<< Insert diagram of a printed circuit board identifying the
motherboard connector and insertion tabs >>
Figure 9—3 — Printed Circuit Board
To insert a printed circuit board, vertically align the printed circuit board with the board slot of the
chassis. The majority of the components on the printed circuit board should be facing towards
the right of the chassis The high-density connector located on the printed circuit board is inserted
into the chassis first, orientated to allow mating with the corresponding high-density receptacle on
the motherboard within the chassis (refer to Figure 9-4).
—____—_—_—
68132 Tol-Llnk Point-ToMultlpelnl, NW. A 0-3
p b E D m Januarytws
<< Insert diagram showing the printed circuit board being
inserted into the chassis showing the tabs extended >>
Figure 9-4 — Printed Circuit Boerd insertion
The two black tabs on the front edge of the board are to be held in an extended orientation. Slide
the board into the chassis. along the guides. until the two high-density connectors are close to
mating. Use the grips of the black tabs to attach to the chassis frame, pressing the tabs towards
the printed circuit board edge, making a secure connection with the two high—density connectors
(refer to Figure 9-5). -
<< Insert diagram showing close-up of tabs attaching to
chassis frame during insertion >>
Figure 9-5 — Printed Circuit Board (Insertion
WARNING!
The NIC Interface cable on the rear of the NIC card must be
removed prior to extracting the NIC card
To remove a printed circuit board, grab the two black tabs on the edge of the printed circuit board.
Extending these tabs will separate the printed circuit board high-density connector from its mate
within the chassis. Slide the printed circuit board out of the chassis to complete the removal.
9-4 65132 Tel-Llnk Point-To—Multlpolnt. Rev, A
p } E D m January 1999
10.0 Sector Terminal Initial Power Application
10.1 DC Power Application
Step 1
Step 2
Step 3
Step 4
Step 5
Remove the DC connector from the Sector IDU.
Insert the appropriately sized fuse in the fuse holder assigned to the
chassis. Two fuses may be used for redundant configuration.
Plug in the DC connector into the DC Power Port of the Sector lDU.
Verify power is applied to the chassis by viewing the LEDs on the boards
within the DU chassis.
If the LEDs on the boards do not illuminate. remove the DC connector from
the IDU and verify wiring and voltage polarity.
10.2 AC Power Application
Step 1
Step 2
Step 2
Step 3
Step 4
03132 Tel-Link Polnt-ToMuItlpolnt. Rev. A
Plug the AC cord for the Sector IDU into the AC source.
Referring to the AC source in Step 1, insert the appropriately sized fuse, or
switch the circuit breaker to the ON position. Two fuses or circuit breakers
may be used for redundant configurations.
Place the AC power switch on the Remote Terminal In the ON position.
Verify power is applied to the chassis by viewing the LEDs on the boards
within the [DU chassis.
If the LEDs on the boards do not illuminate, remove the AC connector from
the [DU and verify wiring and voltage polarity.
10-1
January 1999
r-ibcam
This Page Intentionally Left Blank
—_——.__—___—____—_________
1 0-2 68132 Tel-Link Point-Tu-Mlllllpolrlt, Riv. A
p b E a m January 1999
11.0 Initial Terminal Configuration and Testing
Proper functioning of this command and response exchange verifies that the IDU‘s Local Site
Manager (LSM) agent and other critical software components are present and operational. From
the PC, the installer can use the get and §et commands to communicate with the LSM agent in
the IDU to set and interrogate the IDU configuration. Completion of the test will ensure
configuration items are properly loaded.
11.1 Terminal Configuration
Step 1 After applying power to the IDU(s) and Hub IF Combiner. allow the units to
warm up for five minutes.
Step 2 Verify that each card has completed its self-test process and the LEDs on
the front of each card are in an operational state. (Refer to Table 114).
Table 11-1 — Board LED lndicatlggs
BOARD LED COLOR INDICATION DESCRIPTION .
ed
R On Fault
Demodulator configured, not
locked
Demodulator not configured
Demodulator confgured
locked
l .
Blinks 0K
Off or Solid On Backplane or Cell I/F has Fault
Off OK
ff
Demodulator
Off
Fast Blink
Slow Blink
On '
Hub/Sector Controller
Green Blinks Operational
68132 Tel-Llnk Polnt-To-Multipoint, Rev. A 11-1 I
p b E a m January199§
Step 3 Connect the Local Site Manager (LSM) (laptop computer) to the LSM port
on Controller #1 of the IDU4 Connection is via a 10' Cable with DB—Q
connectors on each end. The LSM should be running the P-COM
WaveView Lite software (Refer to Figure 11-1).
Sector IDU
123456789101112131415161718192021
DEMOD 12
DEMOD 8
DEMOD IO
LSM w/
WaveView Llio
Laptop Computer
Figure 11-1 —LSM Attached To NMS Controller #1 of Sector/DU
Step 4 Load appropriate software in the Controller and each NIC or UIM card.
Step 5 Verify that the transmitter is disabled.
. Sector Terminal Set the sc_CommIssloning_Complete register to
‘No'
- Remote Terminal Set the sc_Commissioning_Complete register to
“No”
Step 6 Load (SET) appropriate registers in the IDU. Refer to the system
Configuariont Document for appropriate frequencies, data rates.
modulations. T1 mapping, etc. The icon to the left of each of the
configuration item’s name should have a green plus symbol to indicate
successful loading of each configuration parameter.
11-2 68132 Tel-Link Palnt—To-Multlpolnt. Rev. A
p } E a m January 1999
11.2 Terminal (Local) Testing
11.2.1 T1 Loopback Test
Perform a “Remote Loopback” BER test on each T1 port.
ME;
For this test. a Bit Error Rate test set is substituted for the actual
CF'E. P-COM recommends me Tl'C Fireberd test set. model 4000
or 6000, with the DS1/T1/D4ESF/SLC-96 data interface module. A
self-loop test should be conducted on the test set prior to
performing this prgcedure, A test is to be conducted for each of the
T1 ports the DU is confi-ured with.
Step 1 Using the LSM, SET the Remote__Loupback register of the T1 port under
test to Enable.
Step 2 Connect the Bit Error Rate (BER) test set to the T1 port under test with the
BER test cable. (Refer to Figure 11—2)
BIT ERROR RATE
TEST SET
RX
T1PORT
CONNECTOR
an my
_E_
mar-W—
-——
“—
-——
Figure 11«2 - Bil Error Rate Test Configuration
_—___——___—__
68132 Tel-Link Folnt-To-Multlpolnt, Rev. A 11-3
talcum
January 1999
Step 3 Allow the test to run for 20 minutes. Record results of each T1 port.
Step4 Upon completion of each test SET the Remote_Loopback register to
Disabled.
11.2.2 Antenna Alignment
Step 1 Enable the transmitter
. Sector Terminal Set the sc_Commlsslonlng_Complete register to
“Yes"
a Remote Terminal Set the sc_CommissIoning_Complete register to
“Yes"
Step 2 Verify proper transmit level. SET the following registers:
- TxLethrlDBM 20
- TX_Enable Enabled
o Antenna_Align Enable
Step 3 Attach the P-COM Antenna Alignment Meter to the Test (ENC) port of the
ODU.
step 4 Loosen the appropriate bolts to allow the fine adjustment tuning of the
antenna.
Step 5 Adjust the antenna in elevation and azimuth (elevation only for the Sector
Antenna) to achieve maximum signal level.
Step 6 Securely fasten all boltst
11.3 Terminal Commissioning
The Commissioning Test Procedure, outlines the steps to commission a Remote Terminal into a
new or existing Sector Network Follow the steps in this document to bring a new Remote
Terminal on line
11-4 08132 Tel-Link Polnt—To-Multlpaint. Rw. A
F!) I: CI ITI
12.0 Technical Support
January 1998
12.1 Warranty
P-COM warrants Point—To-Multipoint products to be free from defects in materials and
workmanship for a period of twelve (12) months from the date of shipment from the factory.
Extended wan'anty options are available.
12.2 Return Process
The boards of the PMP product requiring service may be sent to P-COM Florida at any time
whether the unit is under warranty or not. There is a charge for repairs after the twelve-month
warranty period. - --
A product requiring service should be returned with a detailed description of the problem and
proof of purchase date if the twelve-month warranty has not expired. The product should be
returned in its original shipping carton to ensure that in-transit damage does not occur.
The following process should be used whenever returning equipment to P-COM:
Step 1 Contact P-COM at the telephone number below to obtain a Return Material
Authorization (RMA) number and return shipping address:
P—COM Technical Assistance Center
Phone Number: 1-877—674—3600
FAX Number: 1-877-674-3700
Hours of Operation
8:00 AM to 5:00 PM EST
All equipment received without an RMA will be returned to the
sender. I
Step 2 Pack the equipment in the original shipping containers, if possible. If
original shipping containers have been discarded, pack the failed unit so as
to protect it from shipping damage.
Step 3 Obtain insurance from the shipper that will cover the entire value of the
equipment being returned.
Step 4 Send the equipment (pre-paid shipping) to the address received from the
Technical Assistance Center.
Step5 P-COM will notify the sender, upon receipt of the equipment. of an
estimated time to repair and for return shipping instructions. An estimate of
the repair cost will be given for all non-warranty repairs
All repairs covered under warranty will be completed at no cost and the return shipping (surface)
will be paid for by P-COM. Repairs not covered by the warranty will be performed at current P-
COM labor rates and material costs and billed to the customer. In addition. shipping will be billed
for non E D m Janulry1999
—
nstall at least 1 rack unr
HUB IF COMBINR lNTALLATlON: The Hub IF Combesolnhuld be I
above each Sector bank of “Due to prevent air flow restriction
D Properly Install the Hub IF Combiner in accordance with the P-COM Installation and
Operation Manual
HUB IF COMBINER INTERCONNECT:
D For a Sector with one or more IDUs‘ connect IDU tit-IF Port $91 to Hub IF Combiner 41-
Port #1. Connector IDU #1-IF Port 132 b Hub IF Combiner ttZ-Port #1. This same
sequence should be followed it multiple lDUs are used In a Sectorl
Connect the power cord/leads to the Input Power port. Terminate the power cord/leads to
the appropriate AC or DC power source
Connect a ground wire from the chassis to a local earth ground
initial Power-on and Test Suence
D When prepared to apply power to the IDU. turn the circuit breaker assigned to the IDU to
the ON position
SECTOR TERMINAL:
Apply power to the Sector IDU Terminal. Allow the terminal to warm up for five minutes
Verify each card has completed its selfltest process and the LEDs on the front oi each card
are in an operational Green condition. lnlerpretzfion of LED conditions may be found In
Table 4-1, Board LED Indications of the P-COM Installation and Operations Manual.
Connect the LSM lo the Controller
Load appropriate software in the IDU
Load (Sat/Get) appropriate registers In the lDU
Verify configuration loaded successfully
Verify transmitter is disabled. The so_Commissioning‘Complete register should indicate
“uncommissioned.”
D Perform the “Remote Loopback" BER tests on all T1 ports in accordance with P-COM PMP
Installation and Operation Manual
Place T1 looping plugs in all Tl ports
Enable the transmitter, Set the sc_Commissioning‘Complete register to “commissioned."
Verity proper transmit level
Page 4 of 5
63132 Tel-Link Point-To-Multipoint, Rev. A A-S
etcnm
OTE TERMINAL:
Apply power to the Remote IDU Terminals Allow the terminal to warm up for five minutes
Verify each card has completed its self-test process and the LEDs on the front of each care
are in an operational Green condition. Interpretation of LED conditions may be found in
Table 4—1. Board LED Indications of the P-COM Installation and Operations Manual.
Connect the LSM to the Controller
Load appropriate software in the IDU
Load (Set/Get) appropriate registers in the IDU
Verify configuration loaded successfully
Verify transmitter is disabled. The sc_Commissloning_CompIete register should indicate
“uncommissioned.”
D Perform the "Remote Loopback" BER tests on all T1 ports in accordance with P—COM PMP
Installation and Operation Manual
D Align the Remote Terminal antenna. Connect a DVM to the test port of the ODU. Adjust
the antenna in elevation, then in azimuth to obtain a peak voltage measurement. Typical
measurements should indicated Vdc. Tighten down all mounting bolts
Verify proper receive level is registered at the IDU
Enable the transmitter, Set the rc_Commissioning_Complete register to “commissioned."
Perform BER tests with the Sector Terminal for each T1 port for at least 30 minutes.
Record performance on the data sheets provided for commissioning each terminal
Installation Completed
This concludes the P-COM PMP equipment installation sequence. Sign and date in the spaces
provided below and proceed to the P-COM PMP Commissioning Test Plan.
Page 5 of 5
A-s 68132 Tel-Llnk Point-To-Multlpoint, M. A I
Signature:
talcum We I
PMP INSTALLATION PROCEDURE CHECKLIST
7 INTRODUCTION
This Installation Procedure Checklist is provided to ensure the correct procedures for installing P-
COM PMP equipment are followed. The Checklist is to be completed for each site installed and
the installer is to check-off each box upon completion of each step. Upon installation completion,
the installer will si-n and date the Checklist.
Site Designation:
._.
Verify possession of completed Site Survey form for the designated site
Verify possession of System Configuration Document for designated site
Verify possession of Commissioning Test Form for testing of a terminal
Sector Terminal
TOOLS:
D Verify all required tools listed in P-COM PMP installation and Operation Manual are in good
working order
INVENTORY: The shipping list should contain all equipment ordered by the customer for the
total number or Sector and Remote Terminals
Verify equipment received matches the shipping'list by Part Number and Serial Number
Verify equipment has arrived without any visible damage
NOTE:
Any visible damage should be reported immediately to the customer and to the P-COM TAC at:
(407) 674-3699.
Pae1of5
68132 Tel-Link Polnt-To-Multipeint, Riv. A A—7
January 1999
ODU/ANTENNA INSTALLATION PREPARATION
D Verify pole the ODU/Antenna assembly is to be mounted on has been installed In the
designated location identified in the Site Survey Form
Verify the pole has been securely mounted and that a 10-12 AWG copper wire connects the
pole to earth ground
Perform a continuity test between the pole and earth ground. Continuity should measure
<1 Ohm
ODU/ANTENNA INSTALLATION:
D Properly install the ODU/Antenna assembly in accordance with the P-COM Installation and
Operation Manual
Sector ODU/Antenna: Align the antenna in the direction for operations as specified in the
P-COM System Configuration Document
Remote ODU/Antenna: Align the antenna in the general direction of the designated Sector
Terminals Fine-tuning will be performed during the “Initial Power-up and test Sequence.~
ODU INTERCONNECT:
Remote Terminal: Connect the lFL cable to the ODU RF Port (Type-N Connector)
Sector Terminal: Connect the IFL cable between the appropriate ODU and Hub IF
Combiner chassis. ODU #1 should be connected to Hub IF Combiner $1. ODU #2 should
be connected to Hub IF Combiner#2
INTERFACILITY LINK IFL INSTALLATION SEQUENCE
IFL INSTALLATION PREPARATION: The IFL should be Times-Microwave LMR-4OO coaxial cable,
or equivalent, unless otherwise stated in the P-COM Site
Survey Form
Verify presence of an appropriate lnterfacility Link (lFL) between ODU and IDU locations
Verify sufficient length of IFL exists at both ends to provide a service loop prior to being
terminated to the equipment
Terminate each end of the IFL with Type-N male connector
Pa-e2 0f5
A-8 63132 Til-Link Pnlnt-To-Mullipoint, Row. A
p ’ E a m Jenuary1999
IDU INSTALLATION PREPARATION: Each site should be identified if the Indoor Unit (IDU)
should be rack mounted or placed on a tabletop. This
information is found in the P-COM Site Survey Form.
Ven'fy possession of IDU chassis and all appropriate cards intended to populate the IDU
Verity presence of customer‘s interface demarcation
Verify required rack/table is installed, secured to the floor. and ready to accept the IDU
Verify correct power source has been provided within close proximity to the location where
the IDU is to be installed
Verify power source is controlled through an appropriately sized circuit breaker or fuse
Verify power to the IDU is in the OFF position
IDU INSTALLATION:
D Properly install the IDU in accordance with the P-COM Installation and Operation Manual
IDU INTERCONNECT: There are four cables to be connected to the rear of the IDU
Remote Terminal: Connect the iFL cable to the RF Port of the IDU
Sector Terminal: For a Sector with one or more IDU's, connect Sector #1-Port #1 to Hub [F
Combiner #1-F’ort #1. Connect IDU #1~IF Port #2 to Hub IF Combiner #‘2-Port #1. This
same sequence should be followed if multiple IDUs are used in a Sectort A ENC (F) to
Type-N (M) adapter may be required on each lF port on the IDU
Sector and Remote Terminals: Connect the power leads/00rd to the IDU Input Power port
Terminate the power leads/cord to the appropriate AC or DC power source. Two power
leads/cables are to be terminated for 3 Sector Terminal
Sector and Remote Terminals: Connect a ground wire from the chassis to a local
earthgrounds
CUSTOMER PREMISE EQUIPMENT PREPARATION:
D Verify Customer Premise Equipment (CPE) has been installed within close proximity to the
IDU equipment
D Verify sufficient length of CPE cable is present to provide a service loop prior to being
terminated to the equipment
Sector and Remote Terminals: After completion of the Commissioning Test Plan connect
the CPE cable to the appropriate port on the User Interface Module (UIM) or Network
Interface Card (NIC)
53132 Tel-Llnk Point-To-Multipulnt. Rev, A As I
etcnm
The Hub lF Combiner should be installed at least 1
rack unit above each Sector bank of lDUs to prevent
air flow restriction
HUB IF COMBINER INSTALLATION.
D Properly install the Hub IF combiner in accordance with the P-COM Installation and
Operation Manual
HUB IF COMBINER INTERCONNECT:
#1-
Port #1. Connector lDU #1-IF Port #2 to Hub IF Combiner #2-Port #1. This same
sequence should be followed if multiple IDUs are used in a Sector.
Connect the power cord/leads to the Input Power port. Terminate the power cord/leads to
the appropriate AC or DC power source
Connect a ground wire from the chassis to a local earth ground
D For a Sector with one or more lDUs, connect [Bu #1- IF Port #1 to Hub IF Combiner
D When prepared to apply power to the DU. turn the circuit breaker assigned to the IDU to
the ON position
SECTOR TERMINAL:
Apply power to the Sector IDU Terminal. Allow the terminal to warm up for five minutes
Verify each card has completed its self- test process and the LEDs on the front of each card
are in an operational Green condition. Interpretation of LED conditions may be found' |n
Table 4-1, Board LED Indications of the P- COM Installation and Operations Manual.
Connect the LSM to the Controller
Load appropriate software in the [DU
Load (Set/Get) appropriate registers in the IDU
Verify configuration loaded successfully
Verify transmitter is disabled. The sc_Commissioning_Complete register should indicate
‘uncommissioned."
D Perform the “Remote Loopback" BER tests on all T1 ports in accordance with P-COM PMP
Installation and Operation Manual
Place T1 looping plugs in all T1 ports
Enable the transmitter. Set the sc_Commissioning_Complete register to “commissioned."
Verify proper transmit level
A40 68132 Tel-Link Point-To-Multlpolnt, Ravi A I
p > E D m January 1999
RMOTE TERMINAL:
Apply power to the Remote IDU Terminal. Allow the tennlnal to warm up for five minutes
Verify each card has completed its self-test process and the LEDs on the front of each care
are in an operational Green condition. Interpretation of LED conditions may be found in
Table 4-1, Board LED Indications of the P-COM Installation and Operations Manual.
Connect the LSM to the Controller
Load appropriate "software in the IDU
Load (Set/Get) appropriate registers in the IDU
Verify configuration loaded successfully
Verify transmitter is disabled. The sc_Commissloning_CompIete register should Indicate
‘uncommissioned.’
D Perform the "Remote Loopback” BER tests on all Ti ports in accordance with P-COM PMP
Installation and Operation Manual
Align the Remote Terminal antenna. Connect a DVM to the test port of the ODU. Adjust
the antenna in elevation, then in azimuth to obtain a peak voltage measurement. Typical
measurements should indicated Vdc. Tighten down all mounting bolts
Verity proper receive level is registered at the IDU
Enable the transmitter. Set the rc_Comrnissioning_Compiete register to “commissioned.”
Perform BER tests with the Sector Terminal for each T1 port for at least 30 minutes.
-ertormance on the data sheets - rovided for commissionin each terminal
This concludes the F-COM PMP equipment installation sequence. Sign and date in the spaces
provided below and proceed to the P-COM PMP Commissioning Test Plan.
Pae5of5
38132 Tel-Link Polnt-To-Multipoint, Rev. A A-11
rL-nzam
January 1299
This Page Intentionally Lefl Blank
hm
A-12 68132 TlI-Llnk Polnt-To-Mulflpnlnt, R“. A
m I: l: m
APPENDIX B: Site SurVey Checklist
January 1999
68132 T-I-Unk Paint~To-Mulflpolnt, Rev. A 8-1
r-inznm
January 1999
SITE SURVEY CHECKLIST
( e Completed For Each Slte)
‘_’ ‘ '7 -DATE — 7 ' ,,
CONTACT NAMES(S):
RAC’TERISTICS
Friar (a sile insmllau'on planning vlall, complete line—af-sigm, hnsmlssion anglneering and preliminary frequency eocmfinaliun work la
aslablish vlabilily of path selsnsd.
Coordlnales:
Ground Elwatlon AMSL (Above Mam soa Luvnl):
Distant: Bolwnn Hub And Ranch Terminals
Transmit Frequ-ncy (High/Lew Band; Palarlnllnn)
Avallabla Conduit:
Paqe1ofe
5-2 63132 Tel-Llnk Polnl-To-Mulfipolnt, Ru A |
January 1999
_--
__--
_--
_-- 0mm Escort Required _-
If Y”, What Spaniel Tools: If Yes. Who Is Nesded As The Ewart
Sketch/Photos O! Equlpm'm And Sit. {on pages 5 and 5) - Includa Sm layout (Topographical Map And Bulldlnu Blueprints
If Aval a). Locatlon Ol AmennalODl-l, And Brlolly Explaln How The Anlmnilouu WI" 5. Installed Below.
_—
Wall Mount
we" —
ome
Pale Diameter:
Show delails in sketch of prvpesed mounting and hardware (pole) locafion. Show relaflonship Io coaxial able access and buildlng
ground. Show lightning rod ground connect point if appllcabls
Obs'mcfionS: _
Page 2 Of 8
—-—_—————_—___
65132 Tel-Link Pcint-To-Multlpnlnl, Rev. A 5—3 |
January 1999
Available Power (Voltage and Current)
NOTE:
Do not mount radio equipment in the prokifn'ity of machinery that can either generate large electromagnetic
fields or large voltage spikes as they cycle on/cff (i.e,, air conditioners, elevator motors, etc.).
-m
--_
AC Power On Roof
ldentify Location/Distance to
Available AC Power:
Distance Between ODU and
lDU:
NOTE:
Maxlmum distance of LMR400 cable is 1000 Feet
Has Cable Been Ordered7
lFL Cable Supplied By P-COM
Distance Between IDU and Customer Premise: —
NQIE: '
Maximum distance forT1 is 1000 Feet
Sketch/Photos Of Equipment — Cable Run From ODU To lDU
Show Access Points (ile,. Floors) (Sketch) (Space available on Pages 5 and 6)
IFL Exists ln-place
ls Plenum Rated Cable Required?
-m
Is Pull Rope Installed In Conduit --
ls New Pull Rope Reqwred --
Page 3 of 6
54 68132 Tel-Link Point-To-Multlpelnt, Revl A I
r.» cum WW I
What Type of Terminating Equipment Will Be Used (Customer Premise Equipment)
Check Site For:
Phone Jack Available -- Acme Power Provided
Fuse Panel Available -- Battery Back-up Required -
is Equipment Redundancy A Requirement? --
Number of lDU's Required:
IDU Mounting:
Rack/Table Supplied By:
Rack or Table Ordered?
Limitations on Rack or Table Floor
Space:
Temperature/Humidity Controlled Room
Air Flow Restrictions
Fans Needed
Other Rack Installation considerations:
Sketch/Photos 01 Equipment including (on pages 5 and 6) - Site layout (Include extracts from topographical map
and building blueprints if aveile)and location oi equipmen
' TOOLS REQIRED
-m -m
Binoculars _ Camera --
Cellular Phone (2 each) - EMER—
Flashlight/Strobe -
68132 Tel-Link Point
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